Cash-register.



PATENTED JULY l2, 1904.

T. GARNEY.

CASH REGISTER.

APPLICATION FILED JUNE 14.1901.

l1 SHEETS-SHEET l.

N0 MODEL.

PATENTED JULY 12, 1904,

T. GARNEY. CASH REGISTER. APPLIGATIGN FILED JUNB14,1901.

11 SHEETS-SHEET 2.

N0 MODEL.

Witnesses T. GARNBY.

CASH REGISTER..

APPLIoATIoN FILED JUNE 14.1901.

11 SHEETS-SHEET 3.

N0 MODEL.

PATENTED JULY l2, 1904.

T. CARNEY.A

CASH REGISTER.

APPLICATION FILED JUNE 14,1901.

l1 SHEETSSHEET 4.

N0 MODEL.

PATENTED JULY '12, 1904.

'I'. DARNEY. CASH REGISTER.

AYPLIOATION FILED JUNI: 14.1901.

1l SHEETS-SHEET 5- H0 MODEL.

SWR

witnesses PATENTBD JULY l2, M204.

L E D O M 0 E 11 SHEETS-SHEET 6.

www0/wao No. 764,559. PATENTBD JULY 12, 1904-. T. GARNEY.

CASH REGISTER.

APPLICATION FILED JUNE 14.1901.

vN0 MODEL.

11 SHEETS-SHEET 7.

PATENTED JULY l2, 1904.

T. CARNBY. CASH REGISTER.

APPLICATION FILED JUNE 14.1901.

11 SHEETS-SHEET 8.

WWW/WW 3 14m/whom atto MQfi PATBNTED JULY l2, 1904.

T. CARNEY. CASH REGISTER.

APPLICATION FILED JUNE14.1901.

11 SHEETS-SHEET 9.

NO MODEL.

Snowdon wit-wm@ T. CARNEY.

CASH REGISTER.

APPLICATION FILED JUNI 14.1901. lio IIoDEL.

A ly

PATENTED JULY l2, 1904.

l1 SHEETS-SHEET l0v PATENTED JULY 12, 1904.

Not 764,559'.

T.0ARNEY. y CASH REGISTER. APPLICATION FILED JUNE 14.1901.

l1 SHEETS-SHEET 11- N0 MODEL.

UNITED STATES Patented July 12, 1904.

PATENT OFFICE.

Racisme coMPANY, or JERsEY TION OF NEW JERSEY.

SITY, NEW JERSEY, A CORPORA- CASH-REGISTER.

SPECIFICATION forming part of Letters Patent N o. 764,559, dated July 12, 1904.

Application filed June 14, 1901.

To @ZZ whom, t may concern: v

Be it known that I, THOMAS CARNEY, a citizen of the United States, residing at Dayton, in the county of Montgomery and State of Ohio, have invented certain new and useful Improvements in Cash-Registers, of which I declare thei'ollowing to be a full, clear, and exact description.

My invention relates to improvements in cash-registers.

The object ot' the invention will be more specifically hereinafter referred to and particularly pointed out in the appended claims.

In the appended drawings, forming part of this specification, Figure l represents a vertical transverse section, partly broken away.l oi' the devices embodying my invention, taken on the line w w oi' Fig. 6, hereinafter described, the cabinet for said devices being removed. Fig. 2 vrepresents a similar view taken on the line .fc .fu of Fig. 6. Fig. 3 represents an end elevation or' my said improvements, the cash-drawers being omitted and the 'upper portion oi' the machine broken away. Fig. e: represents a view similarto Fig. 2, but taken on the line y y of Fig. 6

Y and looking toward the opposite end of the machine. Fig. 5 represents a view similar to Fig. t, but taken on the line of Fig. 6.v

Fig. 6 represents a top plan view of mysaid improvements.

Fig. 7 represents an enlarged detail front elevation of the counter, countercam, and throw-out device, some of the parts being omitted for clearness. Fig. 8 represents an enlarged detail side elevation ot the. full-stroke ratchet wheel and pawl. Fig. 9

'represents an enlarged detail side elevation oi' the pi'voted counter-frame and counter-throwing cam, the former being broken away.

Fig. 10 represents a detail side elevation or' the cam-arms that cooperate y with the specialtransaction keys and one oi' said keys. Fig.

-ll representsa vertical transverse section, partly broken away, through the duplicate cash-drawers, a special clerks key coperating with the latch of one of the same being shown inside elevation. Fig. 12 represents Serial No. 64,557. (No modell a detail perspective view, partly broken away, oi' the indicator-supporting slide and coperating parts. Fig. 13 represents an enlarged Adetail rear elevation of a number oi' the pivoted key-stops,'showing the end or' a key elevated between two of the same. Fig. le rcpresents a detail top plan view, partly broken away, of the indicator guide-plate. Fig. l5 represents an'enlarged detail perspective view of the coupling-slide for the platen-arms. Fig. 16 represents an enlarged detail perspective view of the counter removed from the machine. Fig. 17 represents a detail perspective view oi' one of the registeringframes, showing the latch-frame cooperating therewith, the shaft upon which it is fast, and theI segmental gear carried by said shaft. Fig. 18 represents a'side elevation of one ot' the counter-Wheels, showing its pawl connection with the shaft upon which it is mounted. Fig. 19 represents a detail perspective view of the shafts and sleeves supporting the operating-pawls for the special counters. Fig. 20 represents a detail perspective View of the special clerks keys and the lockingyoke which they operate. Fig. 21 represents an enlarged detail perspective view of the printer-hood, and Fig. 9.2 represents an enlarged detail perspective view of the devices for bringing the turn to Zero mechanism to a full stop at the zero position.

In general terms this machine may be described as being a key-operated cash-register in which the keys are arranged ih banks or groups, each of which cooperates with a movable registering irame common to all of the keys of said particular group. These frames are arranged to'be moved variable distances, according to the values of the keys operated,

and thus impart movements to a counter which i Vis arranged to be movedinto and out of mesh with racks carried by said frames. The aforesaid keys. are also adapted to elevate suitable indicators arranged at the rear of the machine to indicate'the amounts registered upon the counter. l

Described in detail and as shown in the ward. `yv(See Figs. 1 and 12.) When the slide' l only three keys.

and units of dollars.

aforesaid drawings, 1 represents the frame of the machine; 2, the amount-keys; 3, the special-transaction keys, and 4 the indicators.

The amount-keys 2, as shown in Fig. 6, are arranged in four banks, three of which have nine keys each, while the remaining bank has The keys of each of the three first-mentioned banks are numbered from 1 to "9, and said banks respectively represent units of cents, tens of cents,

The fourth bank represents tens of dollars and contains 4only three keys, which represent, respectively, ten, twenty, and thirty dollars. The said amountkeys, as shown in Fig. 1, are journaled upon a transverse shaft 6 and are vformed near their rearendsV with vertical operating-plates 7 having slots 8 and'9, Fig. 4, vformed therein and hereinafter more fully described.

The indicators 4' are of the tablet or Hag variety, and each comprises atablet having the designating-numeral and a supporting-shank 10, preferably formed integral therewith. These shanks are mounted in apertured guiding-plates 11 and 12, suitably secured on the main frame, and are for-med, respectively, with supporting-lips 13, which normally rest upon said plate 12, as clearly shown in Fig. 1. It will beseen by reference to Fig.'6 that the indicators are arranged in two parallel rows and that they lap one over the other,l as shown. This construction permits a larger indicatorbeing used than would be possible if'the indicators were parallel with the transverse shafts of the machine in the usual manner. The lower ends of the aforesaid shanks 10 terminate above the rear ends of the keys 2, whereby when the latter are operated their respective indicators will be thereby elevated into exposed positions. In order to hold the operated indicators in their exposed positions when the keys return to normal, I provide a supporting-slide 14. This slide is mounted in.`

the main frame so asto extend between the two rows of shanks 1 0 and is formed at its upper edge with spaced horif/ontal supporting-lugs 15, every alternate one of which extends forward, the remainder extending rearb14 is in its normal position, the lugs 15 extend into the paths of the lips 13 of the two rows of indicators, and thus support any indicators that `have been elevated in their exposed po.

sitions. The said slide is held in its normal position by a coil-spring 16, which is mounted in parallel slots l?, formed in one end ,of said slide, and bears against a portion of the main frameand the end walls of said slots, as better shown inJFig. 12. The opposite end of said slide from that containing the slots 17 is beveled, as at 18, said'beveled portion beim: engaged by a pivoted lever 19, journaled upon a transverse shaftA 20. (See Fig. 4.) The rearend of the lever is normally held elevated against a stop-pin 21 and'out of contact with'the walls 18 by a coiled spring 22, which connects it to the main frame. The forward downwardly-'turned end of said lever 19 vengages a cam 23 fast to a rotation-shaft 64, which is actuated upon each operation of the keys, as hereinafter described. The formation of the cam ,23 is such that the lever 19 will be operated to engage the bevel 18 and move the slide 14 upon the initial movement of a key, so that the lugs 15 will be moved out of alinement with thelips 13. The indicatorsv that have been s previously set will now drop and the new indicators will be permitted to riseas the lips 13 are free to pass between the lugs 15. As the key approaches the end of its own downstroke the lever. 19is allowed to return tof normal position, which action also permits the slide 14 to return to normal position, and thus support the operated indicators in exposed 'positions and prevent the unoperated indicators from being raised.

Each of the special keys 3 for. paid out, charge,7 received on account, and no sale transactions is similar to the amountkeys, except that the slots 9 in the plates 7 are omitted and said keys are arranged to operate between registering frames herein described instead of cooperating with said frames as the cash-keys do.

By reference to Figs. 1 and 6 of the draw- 95 ings it will be seen that the indicators 193 for the special-transaction keys ar'e Y-shaped and are adapted to be raised outside of the regular indicators and their flash 194, hereinafter described. The special indicators arey elevated in substantially the same manner as the regularv indicators by the special keys with Which they cooperate 'and when so elevated indicate both -at the back and at the front of the machine.

As it is necessary in machines of the class to which the present invention belongs to prevent the simultaneous operation of more than one key in the same bank, I 'provide a series of pendent key-stops or hangers 26, having beveled lower ends and so mounted above thev rearwardly-projecting ends of the keys that only one of the ylatter may be forced up between 'them at a time, which construction is Well known in the artl and needs no further explanation here. (See Fig. `13.)

A The above description fully covers the relative operations of the keys and the indicators,

and I will no'w pass on to the description of the operation of said keys in connection with thc registeringdevice or totalizing counter. Each of said amount-keys, as'before stated, is formed with an operating-plata?, having acamslot 9, said'plates being guided in their movements by spaced fingers 25, formed on the ,plate 12, and also by a-slotted guide-plate 290, mounted on the frame so as'to receive the rearwardly projecting ends of the keys. Each of vthe said cam-slots 9, as shown in Fig. 2, comprises two portiens-namely, an in- IOO lro

. verse shaft 36.

`as shown in Fig. 1.

clined 'cam portion 27 and a free-play portion 28, concentric to the shaft 6, upon which the keys are journaled. The cam portions 27 are arranged at different angles, according to the values of the keys, and are adapted to receive bars 29 of registering frames 30, which are mounted, one fast and the other three loose, upon the aforesaid shaft 20. Each-of these frames comprises, besides the said har 29, two spaced arms 31 and a connecting tie or yoke 32, which latter braces the frame to secure the desired'rigidity of the same, Fig. 6.

It .will be seen /from the above that when a lkey 1s operated the walls of its slot 9.engage the bar 29 of its respective registering frame, and thus rock the frame to"a degree correspending to the value of the key. Then the walls of the concentric or free-play portion l28 of the slot strikes theba'r 29, the 'movement of the'latter ceases, and the frame 30 remains locked against movement in either direction during the time that said bar re-` mains in thisportion of the slot. This peculiar construction of the slots 9 also prevents any overthrow of vthe frames 30 by `violent movements ofthe keys, as the said frames become locked to the keys just as soon as the rods 29 enter the slots 9. It will be seen by reference to Fig. 1 that the normal positions of the frames 30 are such that the bars 29 lie partly out of the mouths of thek slots 9 and against theforward walls of the same. To return the bars to this normal position after the-frames have been operated, I provide a series of bell-crank levers 1292 one for each frame and pivoted upon a transverse shaft 130 (See Fig. 1.) One arm of each of said levers engages the keylcoupler 111, hereinafter described, while the remaining arm is formed with a cam extension 131D, which cooperates with its respeetive bar 29. Upon the return of the keys and the consequent nal downward movement of the key-coupler all of said levers 1292l are given the additional movement; which causes their cam extensions to engage and force the rods 29 forward to normalposition and partly out of the slots 9, the walls of which have been previously moving said rods. Each of the rods 29 projects slightly beyond one end of its frame, so as to cooperate with one`of a series of latch-arms 33, As these latch-arms are similar in the several banks l will describe one only, as such description will suifice for all. -Eaeh of said arms is cf angular formation and, together with an arm 34 and a connecting-bar 35, (see Fig. 17,) forms a latchframe 39, which is journaled upon a trans- A coiled spring 37 surrounds this shaft and is-connected at one end to the same, so that its free end will bear against the arm 34 to normally hold vthe frame forward with the latching-arm 33 .in the pathef the projecting-end ofthe rod 29, which efectually locks the frame 30V against any. rocking move- Each frame 30 is provided with a segmental -raek 41,'those of the two right-hand frames being formed on their adjoining ends, while that of the next adjoining frame is fast upon the shaft 2O to which said frame is alsofast. The extreme left-hand frame is loose upon.

the shaft 2O and is formed with a segmental rack 42. (Better shown in Fig. 6.) rlhis rack meshes with a pinion 160, mounted on a short transverse shaft 161, which also carries a similar pinion 162. This latter pinion meshes with the fourth rack 41, which is journalcd upon the shaft 20. As the respective frames 30 are moved distances corresponding to the values of the operated keys their racks are also similarly moved'and when meshing with the counter-pinions impart said movementsto thecounter-wheel's.

' The counter as shown in Figs. 1 and 16 coinprises a frame 43, which is pivotally mounted on a shaft 44, which is in turn mounted in the main frame. Said frame 43 forms a support for a transverse shaft 45, upon which the Acounter-wheels 46 are journaled. Each of 'the first four counter-wheels which are arranged to be operated directly from the racks 41 is provided with a pinion 47, said pinions being arranged to mesh with the racks only when the counter-frame is thrown forward. Each of the counterwheels is provided with a ratchet-wheel 48 and a transfer tripping-pin -or stud 49. After a counter-wheel has made a complete revolution, which equals the next higher wheel, its stud 49 engages the beveled endof one of a series of pivotcd sup-v porting-pawls 50 and forces the same back against the tension of a coiled spring 51, which connects a rearwardly extending arm 52 formed on the same to one of a series of transfer-pawls 53.v Each of these pawls is pivoted in a groove 55, lformed in one of a series 'of pivoted levers 54, which latter are pivotally mounted in the counter-frame upon a transverse shaft 56. Each of the said pawls 53 is formed with a nose 57, a hook A53, anda stud or lug 59. When the pawls 50 are in their normal' positions, the said pins 59 rest upon shoulders 60, formed on said pawls, and thus `hold one unit of the pawls 53 so elevated that they will not engage the ratchet-wheels 48 when the levers 54 are moved forward, as hereinafter described; but when the -pawls v50 are tripped or forced forward as above described the shoulders 60 will pass from under thepins 59, so that `the IOO IIO

pawls 53 will drop to such a position that they will engage and actuate the ratchet-wheels when the levers 54 are operated. The pawls 53 when, released are drawn downward by the coiled lsprings 5l; but if they should move downward too slowor by any means becomev stuck in their elevated positions they are posirelieved of the pressure of the transfer-stud on the counter-wheel. As the pawl 53 makes its final movement toward the counter the nose 57 becomes seated in the bottom of the groove 55, in which the pawl is pivoted, and thus prevents any further elevation of the rear end of the pawl, such as would be caused by any overthrow movement of the counter-Wheel, which would force an eXtra ratchet-tooth under said pawl. The relative arrangement of the parts is of course such that a pawl 50 is tripped by the movement of one counter-wheel, while the transfer-pawl 53, which is released thereby, cooperates with the ratchet-wheel of the next higher counter-wheel. As it sometimes occurs that a transfer will be caused by or follow a transfer during a single operation of the machine, it becomes necessary to operate the transferpawls 53 successively, so that the transfer' operations Willfollow each other in rapid. succession across the entire counter. Such successive movements of the pawls from right to left are effected by the successive movements of the operating-levers 54, each of which is provided with an operating-arm 61, carrying an antifriction-roller 62 at its lower end. These rollers are arranged to be struck and forced rearward successively by a series of cam-arms 63, fast to a rotation-shaft 64, hereinafter described. (See Fig. 1l) The levers 54 are returned to their normal positions after being forced rearward by coiled springs 65, mounted in sockets formed in the counterframe and engaging the rear edges of said levers. The counter-frame further carries a series of spring-pressed plungers 66, which en gage a series of pivoted pawls 67, also pivoted in the frame, to force the same rearward into engagementwith the counter ratchet-wheels to prevent any retrograde movement of the same. When it is desirable to turn the counter-wheels to the zero position, the shaft 45 is rotated to cause the wallsof a groove 68 formed therein to engage spring-pressed pawls 69, mounted on the respective counter-wheels, and thus carry said wheelsv with the shaft until the zero position is reached.v (See Fig. 18.)

vThe rotation of the shaft 45 is effected by a beveled pinion 70., fast to one end ofthe same,

. the shaft 45.

the cam, as above described, the forward end vided with the pinion carries a cam-disk 7 3,k

having a notch 74' and a pin 75, as shown vin Fig. 5. When the shaft is in normal position, as shown in this figure, one end of a pivoted pawl ,76 rests in the notch 74, the opposite end of said lever being provided with a pin 77, which projects into a slot 78, formed in a crankarm 79. Thisarm is fast to a rock-shaftSO, mounted in the counter-frame, so thatwhen said arm is moved the shaft willbe simultaneously rocked. The movement of the arm is effected upon the -initial movement oft'he cam 73 as suoli movement forces the end ofthepawl 76 out of the notch 74. The cam 73 is further formed with 'a tooth 81, located in proximity to the notch 74 and adaptedafter the initial movement of the cam to prevent a return movement of the same by cooperating with a tooth 82, formed on the pawl 76, or with the end of the pawl itself. This construction prevents the counter-Wheels being turned partlyv forward and the cam then turned backward to allow the pawl 76'to again become seated in the notch 74, and thus compels a full forward movement of the cam after its rotation has once been commenced. In order to arrest the shaft 45 When the counter-wheels have reached `zero position, I provide a pivoted notched pawl 83, formed with astop-lug l84. (See Figs. 5 and 22.) -A coiled spring isinterposed between this lug and ashoulder 86, formed on the paw176. lt-will be observed that when the .parts are in the position shown in Fig. 5 the notched end of the pawl 83 lies out of the path of the pin 7 5,. and the cam 73 is thus free to move with Upon the initial movement of of the pawl 76 is raised, which' operation causes the shoulder 86 to engage the lug 84 and rock'the pawl 83 to bring its notched end into the path of the pin 75. When the pin reaches the pawl,1it enters the notched end of the same, and thus prevents said pawl snapping backto normal position when the pawl 76 enters the notch 74 and releases the` lug 84.

Just as soon,.however, as the pressure upon the shaft 45 is relaxed the spring 85 forces the pawl 83 out of engagement with` the pin 75. As before stated, the operation' of turning the counter to zero rocks the shaft 80,

IOC

which action locks the machine againstoperation and prevents the tripping of 'any of the pawls 50. To effect the first-mentioned result, said shaft, as shown in Fig. 9, is provided with a slotted crank-arm 87, into the slot of which projects a pin 88, mounted on a bell-cranlclatch-lever 89, pivoted ori thc counter-frame. This lever is formed atits lower end with a latching-hook 90, which when the shaft 80 is rocked enters a notch 91, formed in a disk 92, mounted on the shaft 64; and thus locks the shaft 64 against forward movement until the shaft 80 again returns to normal position, as above described. To accom plish the second result, the said shaft 80 is provided with'a wingI 93, the rear edge of which when the shaft is in normal position acts as a stop for all of the levers 54, as shown in Fig. 1. When the shaft 80 isl rocked, as above described, the wing 93 is also rocked, so that its rear edge is moved forward and up and its forward edge rearward and down. This forward edge contacts with the arm 61, and so rocks the levers 54 on their pivots that the pawls 53, and consequently'the pawls 50, are moved far enough forward for the latter to escape beingstruck by the trip lugs or pins 49 on the counter-wheels. The shaft 80 is rocked back to normal position. when the counter-wheels reach Zero by a coil-spring 94,

which connects a lug formed on said wing to the counter-frame, for which see Fig, 7. The aforesaid shaft 64 also carries a cam 95, which is arranged to cooperate with a bevelended arm 96, formed on a yoke 97, which is journaled on the shaft 56. (See Fig. 1.) This yoke is adapted to coact with pins 98, mounted on the respective levers 54. The construction of the cam 95, is such that upon the initial movement of the same the armA 96 is forced rearward, and thus rocks the yoke 97 and brings it .'into contact with the pins 98. T his action secures the return of any of the levers 54 which may have been previously operated and notproperly returned to normal positions by their respective springs 65. As the movement continues the arm 96 rides upon the periphery of the cam 95, and thus holds the levers 54 against any accidental movement during'the time that motion is being imparted to the counter-wheels by the racks 41. Just as the counter-frame is moved back to disengage the counter-pinions from the racks 41 the reduced portion of the cam 95 is reached,

and the arm 96 is left free to be rocked forward, which operation releases all of the levers 54 and leaves them free to effect the The above-mentioned movement'of the counter-pinions from the racks 41 is se- -cured through the medium of the disk 92,

which is formed with a cam-groove 99, into which projects an antifriction roller 100, mounted on a pendent portion of the counterframe. (See Figs. 7 and 9.) The formation of the cam-groove 99 is such that the counterframe is rocked rearward when the racks 41 are moving downward and is moved back again to normal position before the return movements of the racks have commenced. A s it is desirable to preventthe counter from being thrown rearward into operative position when any Ythe shaft 17 '7 correspondingly.

` to its lower one of the special-transaction i keys is operated, I mount the disk 92 loosely upon the shaft 64 and provide the same with a clutch-sleeve 169, formed with a notch 170 for the reception of a fiange 171, formed on a companion clutch-sleeve 172. This latter sleeve is feathered upon the shaft 64, so as to rotate therewith, but be capable of longitudinal movement thereon. The sleeve 172 is normally forced forward into engagement with the sleeve 169 by a coil-spring 1'73,mount ed upon the shaft 64between said sleeve 172 and a collar 174, fast to said shaft. The sleeve 172 is formed with an annular groove 175, which receives the yoke end of an arm 176, fast to a longitudinally-movable shaft 177. Said shaft 177 extends above the keys, as shown in Figs. 1 and 7, and is provided with a series of pendent cam-arms 173, projecting' down beside the special-transaction keys and into the pathsof pins 179, mounted thereon. i/Vhen one of said 'special keys 3 is depressed, its pin 179 engages its respective cam-arm 178 and forces the same laterally, thus moving This movement of the shaft moves the sleeve 172 against the tension of its spring and uncouples the clutch, so that when the shaft 64 is rotated the disk 92 will not be actuated and the counter will remain in inoperative position. The said shaft 64 receives its rotary motion through the medium of a reciprocating rackbar 101, having rack-teeth formed on its opposite edges and a guiding-slot 102 formed in its lower end, as best shown in Fig. 4. A pin 103, mounted on the main frame, projects through this slot, and thus forms both a guide and a fulcrum for'said rack. The upper end of the rack is shifted laterally to bring the respective sets of rack-teeth alternately into engagement with pinions 104 and 105 by a coil-spring 106, connecting said rack-bar to the frame. Then the rack-bar is `in its up.- per normal position, (shown in Fig. 4,) the spring 106 exerts its tension above the fulcrum-pin 103, and the upper end of the rack is 4thus drawnl forward into mesh with the pinion 105; but when the rack-bar is moved position the tension of said spring is applied below the fulcrum 103, and the upper end ofV the rack-bar is thus drawn into mesh with the pinion 104, whichis fast to the shaft 64. Motion is transferred from the pinion 105 to the pinion 104, so that the latter is continuously rotated in one direction by an intermediate idle pinion 291, liournaled on the main frame, said pinions 104 and 105 being of sufficient width to mesh with the rackbar and this pinion 291, which operates beside said barv In order to hold the rack-bar in mesh with the proper pinion during its full stroke in either direction, I provide said 'nar with a lug 107, which is arranged to be guided by and to pass from one side to the other of a rigid flange 108, formed'on the main frame, when the bar reaches its upper or lower eX- IOO tremity of movement. The iiange 108 is preferahly beveled at its upper and lower ends, so that lif the lug 107 should strike either one of said ends in. its vertical movements it will be forced to slip down beside the iiange. A stud 109 is mounted on the main frame to limit the upward movement of the rack-har. Said rackbar receives its vertical movements through an arm 110, mounted fast upon the key-coupler 111 and carrying an antit'rictionroller 112, which projects into an elongated l slot113, formed in said rack-bar. The keycoupler is operated when any one of thekeys `is'depressed, and thus the rack-har is recip- The said key-coupler, which extends across rocated upon each operation of the machine.

all of the keys, is journaled to the rear of the shaft 6,- so that when a key is operated a flange I115,formed on said coupler, will enter the aforesaid slots 8of the operated keys, and

thus couple the same together in a manner well known in the art. In addition to this 'regular coupling actionof the key-coupler. I

. also provide for coupling the amount-keys key-coupler flange.

and the special-transaction keys successively to the coupler and then elevating or operating the coupler by any one 'of a series of clerks i initial keys 163. To accomplish this result,

-' bc now operated, its pawl 164 will 1oe depressed by engagement,\v ith the key-coupler flange until it has passed the latter, when it will snap forward again over said ange, and thereby couple the key-to the coupler. The aforesaid ini tial movement of the key-coupler is limited in the following manner: The arm 110, which moves with said coupler, (see Fig. 4,) is pro- It will be seen from the above thatthe arm V vided with a pin or stud 165, which is arranged to contact with an arm or stop 166, mounted on a rock-frame. 167. This frame is of yoke formation and is pivoted upon the 'shaft 6 so as to extend'under all of the keys 163 and *is normally held up in contact with these letter-keys hy a coil-spring 168, connected to said rock-frame and the main frame.

166 normally lies inthe path of the stud 165, so .as tolimit the initial movement of the coupler, and consequently the initial .movelmentof the amount and special-transaction keys. 1iJVhen, however, 'onevefA the keys 1 63 is operated, it contacts withthe frame 167 and rocks the latter, which operation moves the arm. 166 forward? out of the path of the? pin 165,and `thus permits the said. key 163 to make-l its full stroke, carrying the key-coupler and keys coupled'thereto with it. means any of the amoiint or special-transaction keys desired may be partially operated By vthis and coupled to the key-coupler and the latter then operated by a clerks keyto complete 4the operation. The means for preventing the key-coupler from sinking hack to its normal position after it has made its initial stroke are as follows: The shaft 64, as shown in Figs.4 7 and 8, is provided with a ratchetwheel 116, having its teeth omitted at diametrically opposite positions,as at 117 A springpressed pawl 118, mounted on the main frame, engages the said ratchet-wheelto prevent any retrograde movement of the shaft 64. When.

the said 'pawl is engaging one or the other of the toothless portions 117 'of the ratchet, as it does lat the terminations of the opposite strokes of the keys, the shaft 64 may be moved back slightly.. vThis structure is to permita slight free play of I the shaft 64 at these periodsto secure correct meshing of the teeth on the rack-bar with the pinions 104 and 105 as said rack-bar is 'shifted from one to the other. As the rapid rotary vmovement of the shaft 64 has a tendency to overthrowv the same during the time the rack-bar is shifting from one pinion, to the other, I

provide means for overcoming this defect.

This means, as shown in Fig. 5, comprises a disk 119, secured to said shaft 64 and formed with a notch 120, and a lever 121, journaled on the shaft 6. This lever 121 is formed with three arms 122, 123, and 124, the two former beingin turn formed with. locking yand alining noses 125and 126.

' `The arm 122 further carries an vantifrictionroller 127, which is held down upon the top IOO of the key-coupler vby a coiled spring 128,

which connects the arm 124 to the main frame. When the key-coupler is moved up upon the operation of a key,-the lever 121 is of course rocked, so as to disengage the nose 126 from the notch and cause the nose 125 to enter the said notch as the disk 119. completes its IIO half-revolution, and thus properly aline and arrest the shaft 64 at the e'ndof the downstroke of the keys. When the coupler again descends -under the impulse ofi the spring 128, the nose 126 enters' the notch 120, as shown in Fig. 5, and alines' and arrests the IIS shaft at the termination of the npstrokes ot' k' the keys. llt will he observed from the foregoing that the spring 128 subserves the dou-r` ble purpose of operating the lever 121 and izo througlisaid -lever'returning the keV-coupler to'normal position.

The plates 7 .of the specialkeys3, as ,before stated are not .formed with the slots 9, but

playbetween the respective `rock'-.fr'ar'n'es 30,'

with which the remaining keys cooperate. Y

The registering operationsof said framesj30'- is thereforeA not effected iny 'any way by said special keys; but a separate record of the number of operations of the same is provided for as follows: Each of said special keys is provided with two spaced pins 129, (see Fig. 1,) between which projects one of a series of pendent cam-arms 130. These arms are mounted, respectively, upon two transverse shafts 131 and two sleeves 132, mounted on said shafts, as better shown in Figs. 1 and 6, soV that when one of said keys is operated its respective shaft or sleeve will be rocked. Each of said shafts and each of the sleeves is provided with an arm 133, carrying a springpressed pawl 134, (see Fig. 1,) which coperates with one of a series of counters 135 to turn the same forward one number upon cach operation of said pawl in amanner well known in the art and needing no further explanation here. `All of the counter-wheels of the special counters are mounted upon a common shaft 143 and are arranged to be picked up and returned to zero by said shaft in the same manner as the counter-wheels of the totalizing-counter. The end of the shaft 143 is provided with a bevelpinion 144, which meshes with a similar pinion 145, journaled on the main frame and formedwith a keyaperture for the reception of a suitable operating-key, (see Fig. 6,) all of which is well known in the art and needs no further explanation.` The counter-wheels of the respectivespecial counters are prevented from moving backward by a series of spring-pressed restraining-pawls 136', mounted on the main frame. 1t will be observed that by the abovedescribed devices each of the said special countersis advanced one numeral when its respective special key is operated, and a record is thus left of the exact number of times each special key is operated.

In addition to the special -key counters I also provide a customer-counter 180 (see Fig. 6) and operate it in substantially the same manner as the above-mentioned special counoperatmgters", with the exception that its arm 181, (see Fig. 1,) which is spring-drawn, is actuated by a cam 182, fast to the rotationshaft 64.

Having thus described the eonstructionand operation of the registering and indicating devices, l will pass on to a description of the duplicate cash-drawers 1 and their coperation with the special clerks keys 163. These drawers, as shown in Fig. 11, are arranged one above the other and are of a number equal to the number of clerks keys, so that each clerk may have a separate cash-drawer. Each drawer is mounted in the cabinet in any suitable' manner and is arranged to be forced open when released byaspringlocated behind itin a manner well known in the art. The drawers are held in theirclosed positions by latchplates 183, fast to the rear sides of the same and cooperating with latch-plungers 184, suitably mounted in the main frame and normally l certain key, however, is not raised until the linal downward movement of the key, which causes its rear end to strike the upper wall of the slot formed in the plunger, and thereby raise the latter. In order to prevent a drawer being opened without first operating some one of the keys 2 or3, l provide a rock-shaft 186 and mount a number of hook-arms 187 fast thereon in such positions as to 'engage pins 188, mounted on said clerks keys, as shown in Fig. 11. The arms are normally held in the position shown in said figure bya spring 189, connecting one of a series of arms 190, mounted on the shaft 186, to the main frame. The arms 190 are formed with bevelfaced notches 191, which engage pins 192, mounted on the amount-keys and the specialtransaction keys. When an amount or specialtransaction key is operated, its pin 192 forces its arm 190 backward, and thus rocks the shaft 186, which operation disengages all the arms 187 from the pins 188 and leaves the clerks keys free to be operated.

In the particular class of machines embraced by my invention it is very desirable that the regular indicators should not be exposed to view until the operated key has returned to normal position, and to accomplish this result I provide the guard or flash 194. This guard, as shown in Figs. 1 and 6, is arranged to extend about said indicators, whereby when it is raised it will conceal both sides of the same. The guard is supported in position at its opposite ends by pendent guide-bars 195, which are suitably mounted in the main frame and are provided at their lower ends with pins 196, which levers. 198. (See Fig. 2.) These levers are journaled upon the shaft 6 near its opposite ends and are in turn formed with slots 199 for the reception of studs 200, mounted on the opposite ends of the key-coupler. By this IOO project into slots 197, formed in l IIO ler will also raise the levers 198 and with them the guard or flash, which latter will remain in position to conceal the indicators as long as said coupler remains elevated.

By reference to Fig. 2 it will be seen that I have provided a bell 143 and arranged to sound the same upon each operation of the machine through the medium of the rotationshaft 64. This shaftV carries a cam 144, which cooperates with a nose 145, formed on a pivoted bell-clapper 146, which is arranged to be normally drawn toward the bell bya coilspring 147, which connects it to the main frame. The lower end of the bell-clapper is engaged by a pin 148, mounted on a suitable lock-disk 149, controlled from the exterior' of the machine by a suitable key. Byrotating this lock-disk the clapper may be so limited in its movements by the said pin 148 that it'v cannot engage and sound the bell when vibrated by the cam 144.

By reference to Fig. it will be seen that the uppermost cash-drawer cooperates with a hook 201, formed on a slide 202,l which is formed with guiding-slots 203, through which project the shafts 6 and 130". A- coil-spring 204 normally draws the slide forward to cause Aa hookv 205 formed thereon to project over of a pivoted leverq208, mounted on the main frame. It will be observed that by operating this lever the slide may be forced rearward out of operative position independent of the sash-drawer," and thus permit the machine to be operated with the upper cash-drawer either open or closed, as desired. Y

Theaforegoing description relates eXclu-.

sively to the indicating and registering .de'-`v` vices, and lf will now pass on to the descrip-V tion of the printing mechanism. The printing-wheels 210 of this' mechanism (see Fig.

6) represent, respectively, the four banks ofamount-keys, the clerks* keys, andthe specialtransaction keys. Said wheels are mounted upon vthe outer Aends of nested, sleeves 211, 212, and 21B and a transverse shaft 214, suitablymounted in the main frame, Each of the three sleeves' 211' and the shaft 214'ie provided at its inner end with a pinion 215, which is in permanent rnesh'with its respective segmental rack 41 or 42, so pas to receive the graduated movements therefrom, as better shown in Fig. 1. The rock-frame 216 for the clerks keys is substantially the same in oonstruction and operation as 4the regular registering frames 30 and carries a segmental rack .217, (see Figs. 6,) which meshes with a pinion 218, carried by the sleeve 212. The sleeve 213, as best seen in Figs. 4 and 3, carries, a

pinion 219,- with which meshes a rack-bar 220, .pivotally mounted upon Aa lever 221 and held down to such mesh by a guide -wheel 222, mounted onthe main frame. The said .lever 221 is fast upon a transverse rock-shaft 223, which, as better shown lin Figs. 5 and 10, isprovided with a series of arms 224,

V.having cam-slots formed .therein for the re-v ception of pins225, Amounted on the specialtransaction keys. lhegcam-slots of the armsv 224 are arranged' in graduated order, .whereby the several keys will rock the' shaft 223 dif.-

-ferent distances, and thus move the'rack-har. 220correspondingly; v This' movement 'ofthe A plicate impressions may be The slide 202 is j 247, mounted on Shown in Fig.. 15) (slot 255, squarelug256,and two studs 25? rack-bar will of course move the sleeve 213 and adjust the printing-wheel carried thereby to the proper position to print characters corresponding to the operated key. Each of the aforesaid printing-wheels is formed with du-` plicate sets of types arranged, respectively,

upon opposite sides of the same, whereby dus'ite sides of "said wheels. Each of .the typewheels, as better shown in Fig. 3, is provided with a star-wheel 226, by means of which it is brought to the proper alineinent and locked in the printing position. These star-wheels are arranged'to be engaged by a ,series alining` pawls 227, independently mounted upon a transverse shaft 228 and vformed each with a lug 229 and a slot 230. Theshaft 228 also supports a pivoted yoke 231; provided with a cross-rod 232, which projects through the slots 230, and also with a series of coilsprings 233, the inner ends of which surround the lugs 229. By this structure when the yoke 231 is rocked forward. the springs 233 are all put under tension to force the pawls independently into engagement with their respective star iwheels. When the yoke is rocked back again, the cross-rod 232 contacts with the rear walls of the slots 230, and thusv moves the pawls back to their 4norm'al positions,'in which they are shown in Fig. 3. The rockingof the yoke is accomplished through the medium of a slotted .arm 234, fast thereto and cooperating with a pin 235, v'mounted on a lever 236. This lever is suitably pivoted on the main frame and is normally drawn forward by la coil-spring 237, which connects it with said main frame. The lever is further formed with a lug 238, which is arranged to be struck by an arm-239, fast to the extended journal end'of the key-coupler. .The arm 239 is further formed with an eXtension'240, which carries a' spring-drawn pawl 241. This pawl is formedwith a hook end 242 and a camshoulder 243. When the pawl 241 is drawn down, the hook 242 engages a lug 244, mount edv on a pivoted platen-arm 245, and thus draws said arm down against the tension of a spring pivotedl descends the cam-shoulder 243 engages a pin the frame, and thus'disen- 242 from Athe lug 244 and under the gages the hook allows the platen-arm to fly back .impulse of its spring to cause the iexible platen 248, carried thereby, to be forced'up- .ward against the printing-wheels from below.

' The two platen arms 245 and 249 are made from oppo- IOO coupled, so` as to move together, in the fol-` vlowing manner: The arm 245 is formed with a vertical extension 250, having a slot 2512 formed therein, While the arm 249 is provided A with a pendentextension 252, having a slot 253 formed therein, Acoupling-platc 254 (better is formed with a guiding- ,ject through slots key is normally drawn it to said frame.

the stud 258 and 258, arranged upon opposite sides of the same, and is adapted to couple the two platenlevers, so that they will move together. The said plate is guided, as shown in Fig.3, by the projecting end of the journal of the lever 249, which projects into the slot 255, and also by the lug 256, which operates in the slot 253. The plate is arranged to be slid vertically to bring the stud 257 into the slot 251 by a key 259, having a slot 260, into which projects. lVhen the devices are in the normal position, (shown in Fig. 3,) the pin 257 lies out of the slot 251, and the lower platen will be operated without affecting the upper platen; but when the slidable plate 254 is depressed, as above described, the pin is brougit within the slot and the two platens move together. The said key 259 is provided with an operating-button 261 and is mounted to slide on the frame by pins 2", which pro- 2", formed therein. The into its upper position by a coil-spring 262, which connects it to the main frame, and is formed with a notch 263, arranged to receive -a retainingpawl 264. This pawl is pivoted on the main frame and is normally drawn into engagement with the key 259 by a coil-spring 265, which connects W'hen the key 259 is depressed to couple the platen-levers, the pawl 264 enters the notch 263 and holds the key in this position until the linal movement of the machine, when a cam 266, mounted on the shaft of the pinion 105, (see Figs. 3 and 4,) engages and operates an arm 267, fast to the shaft carrying said pawl.

It is often desirable to printa character upon the detail-strip whenever a check has been printed, and to accomplish this result I have provided the following means: Pivoted` upon the frame is a spring-drawn pawl 210", bearing a type at one end which is normally out of the path of the lower platen. The other end of said pawl extends above the typewheels and is adapted when the platens are coupled to be struck by .the upper platen and force the type end of said pawl in engagement with the lower platen to print upon the detail-strip in alincment with the amount any suitable characters.

The platen-arms 245 and 249 are held in their normal vposiions (shown in Fig. 3) by two spring-presse plungers 268, mounted on the main frame and engaging the respective extensions of said platen-arms.

An endless inking-ribbon 269 passes about the type-wheels and is supported in position by guide-studs 270, a feeding and inking roller 271, and a tension -roller 27 2. The roller 271 is covered with ink-saturated felt and is Aprovided with a gear-wheel' 273, by means of which it is rotated to feed the vribbon at each operation of the machine. The

274, which in turn carries a pivoted arm 275, having a earn end and connected to the lirstmentioned arm by a coil-spring 276. The cani end of the arm 275 rests against one of the studs 270, and the two arms form, in cifect, a toggle which the spring 276 is normally seeking to draw together, and thus keep the ink- 4ing-ribbon under tension.

The detail-strip 278 is wound upon a supply-roll 279 and passes from the same over two guiding-studs 280 and is wound upon a feeding-roller 281. This roller is provided with a ratchet-wheel 282A and a gear-wheel 283, the latter communicating' motion to the gear 273 through an intermediate gear 284. `The ratchet-wheel is moved one tooth upon each operation oi' the machine by a springpressed pawl 285, mounted on the lower platenlever 245. Said ratchet-wheel is prevented from moving backward by a spring-pressed pawl 286, mounted on the main frame.

When a check is to be printed, the same is inserted under the upper platen through a suitable slot 287, formed in the printer-hood 287, as shown in Fig. 21, the platen-arm 249 being of an angular formation to allow of this operation, as shown in Fig. 6.

Having thus described my invention, what I claim as new, and desire to secure by Letters Patent, is-

1. 1n a cash-register the combination with a registering mechanism, of a movable member, a series oi' cash-keys arranged to be coupled to said member so as to be operated thereby, aseries of special keys for operating said member, and locks for said special keys arranged to be operated by the cash-keys.

2. 1n a cash-register the combination with a registering mechanism, otl a series oi' cashkeys, a member common to all of said keys, spring-pressed pawls mounted on the keys and adapted to couple the same to the common member, a series of special keys arranged to operate said common member and locks for the special keys operated by the cash-keys.

3. In a cash-register the combination with registering devices, of a series of cash-keys, a key-coupler, movable pawls mounted on said keys and adapted to couple the saine to said coupler, upon their initial movements, a series of special keys arranged to be coupled to said coupler when operated and thus actuate the same to operate the cash-keysand locks for the special keys operated by'thd cash-keys.

4. In a cash-register the combination with operating devices, or' a. printing mechanism, a platen, a pivoted arm carrying a type and arranged to be struck and operated by said platen 'and means for operating the platen at will. l

5. In a cash-reglister the combination with operating devices, of a, printing mechanism,

tension-roller 272 for holding the ribbon tag at all times\is mounted upon a pivote/dar two pla/tjen-armsprings connecting said arms, -spring-pressed plungers engaging said aijns,

IOO

figo 

